Global climate projections. Chapter 10 GA Meehl, TF Stocker, WD Collins, P Friedlingstein, AT Gaye, JM Gregory, ... | 7240 | 2007 |
Long-term climate change: projections, commitments and irreversibility M Collins, R Knutti, J Arblaster, JL Dufresne, T Fichefet, P Friedlingstein, ... Climate Change 2013-The Physical Science Basis: Contribution of Working …, 2013 | 5234 | 2013 |
Carbon and other biogeochemical cycles P Ciais, C Sabine, G Bala, L Bopp, V Brovkin, JI House Climate Change 2013: The Physical Science Basis. Contribution of Working …, 2014 | 3963 | 2014 |
Climate–carbon cycle feedback analysis: results from the C4MIP model intercomparison P Friedlingstein, P Cox, R Betts, L Bopp, W von Bloh, V Brovkin, P Cadule, ... Journal of climate 19 (14), 3337-3353, 2006 | 3310 | 2006 |
Future CO2 emissions and climate change from existing energy infrastructure SJ Davis, K Caldeira, HD Matthews Science 329 (5997), 1330-1333, 2010 | 1404 | 2010 |
Detection and attribution of climate change: from global to regional NL Bindoff, PAA Stott, KM AchutaRao, MRR Allen, N Gillett, D Gutzler, ... Climate change 2013: the physical science basis, 2014 | 1199 | 2014 |
The proportionality of global warming to cumulative carbon emissions HD Matthews, NP Gillett, PA Stott, K Zickfeld Nature 459 (7248), 829-832, 2009 | 1165 | 2009 |
The Earth’s energy budget, climate feedbacks, and climate sensitivity P Forster, T Storelvmo, K Armour, W Collins, JL Dufresne, D Frame, ... Open Access Te Herenga Waka-Victoria University of Wellington, 2021 | 1007 | 2021 |
The UVic Earth System Climate Model: Model description, climatology, and applications to past, present and future climates AJ Weaver, M Eby, EC Wiebe, CM Bitz, PB Duffy, TL Ewen, AF Fanning, ... Atmosphere-Ocean 39 (4), 361-428, 2001 | 769 | 2001 |
Stabilizing climate requires near‐zero emissions HD Matthews, K Caldeira Geophysical research letters 35 (4), 2008 | 672 | 2008 |
Emission budgets and pathways consistent with limiting warming to 1.5 C RJ Millar, JS Fuglestvedt, P Friedlingstein, J Rogelj, MJ Grubb, ... Nature Geoscience 10 (10), 741-747, 2017 | 639 | 2017 |
Changing state of the climate system SK Gulev, PW Thorne, J Ahn, FJ Dentener, CM Domingues, S Gerland, ... Cambridge University Press, 2021 | 457 | 2021 |
Future changes in climate, ocean circulation, ecosystems, and biogeochemical cycling simulated for a business‐as‐usual CO2 emission scenario until year 4000 AD A Schmittner, A Oschlies, HD Matthews, ED Galbraith Global biogeochemical cycles 22 (1), 2008 | 448 | 2008 |
Global cooling updates: Reflective roofs and pavements H Akbari, HD Matthews Energy and Buildings 55, 2-6, 2012 | 412 | 2012 |
Setting cumulative emissions targets to reduce the risk of dangerous climate change K Zickfeld, M Eby, HD Matthews, AJ Weaver Proceedings of the National Academy of Sciences 106 (38), 16129-16134, 2009 | 384 | 2009 |
Transient climate–carbon simulations of planetary geoengineering HD Matthews, K Caldeira Proceedings of the National Academy of Sciences 104 (24), 9949-9954, 2007 | 382 | 2007 |
The role of land surface dynamics in glacial inception: a study with the UVic Earth System Model KJ Meissner, AJ Weaver, HD Matthews, PM Cox Climate Dynamics 21, 515-537, 2003 | 368 | 2003 |
Constraining the Ratio of Global Warming to Cumulative CO 2 Emissions Using CMIP5 Simulations NP Gillett, VK Arora, D Matthews, MR Allen Journal of Climate 26 (18), 6844-6858, 2013 | 357 | 2013 |
Biogeophysical effects of historical land cover changes simulated by six Earth system models of intermediate complexity V Brovkin, M Claussen, E Driesschaert, T Fichefet, D Kicklighter, ... Climate Dynamics 26, 587-600, 2006 | 311 | 2006 |
Natural and anthropogenic climate change: incorporating historical land cover change, vegetation dynamics and the global carbon cycle HD Matthews, AJ Weaver, KJ Meissner, NP Gillett, M Eby Climate Dynamics 22, 461-479, 2004 | 298 | 2004 |